Position Sensing Using Pico-Second Timing With Micro-Channel Plate Devices and Waveform Sampling

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Position Sensing Using Pico-Second Timing With Micro-Channel Plate Devices and Waveform Sampling

机译：使用微通道平板设备的微秒级定时和波形采样进行位置检测

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Micro-Channel Plate devices (MCP) provide fast signals with rise-times in the 100 ps regime. The coupling of the MCP anode plane to 50 ÃÂÃÂ¿ transmission lines allows both a precise time measurement and additionally the potential for a position measurement with an accuracy of a few hundred microns for large-area devices. We present position measurement results obtained with MCPs from Photonis, 10-cm long transmission lines, and a calibrated laser source, using waveform processing after digitization. A detailed simulation of the transmission lines is also presented, including simulation results for transmission lines up to 1-m in length. We compare the measured position resolution for two identical setups but with MCPs of different pore diameters: 25 and 10 microns.

机译：微通道板器件（MCP）以100 ps的速率提供具有上升时间的快速信号。 MCP阳极平面与50°C传输线的耦合不仅可以进行精确的时间测量，而且还可以进行大面积设备的数百微米精度的位置测量。我们展示了使用Photonis的MCP，10厘米长的传输线和经过校准的激光源，通过数字化后的波形处理获得的位置测量结果。还介绍了传输线的详细仿真，包括长度最大为1-m的传输线的仿真结果。我们比较了两种相同设置但具有不同孔径的MCP（25和10微米）的测量位置分辨率。

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《Nuclear Science, IEEE Transactions on》 |2010年第2期|p.525-532|共8页
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正文语种 eng
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Fast timing; micro-channel plates; pico-second; sampling; transmission lines;

机译：快速定时;微通道板;皮秒;采样;传输线;

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Position Sensing Using Pico-Second Timing With Micro-Channel Plate Devices and Waveform Sampling

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